Electronic structure, and electronic structure array

ABSTRACT

An electronic structure is provided with a redistribution structure and the following elements. A first supporting structure has a first opening and is disposed on a first surface of the redistribution structure. A second supporting structure has a second opening and is disposed on a second surface of the redistribution structure opposite to the first surface. A first bonding protruding portions are disposed on the first surface of the redistribution structure and located in the first opening. A second bonding protruding portions are disposed on the second surface of the redistribution structure and located in the second opening. A first encapsulated material is filled between the first opening and the first bonding protruding portions. A second encapsulated material is filled between the second opening and the second bonding protruding portions. An electronic structure array is also provided.

CROSS-REFERENCE TO RELATED APPLICATION

This application claims the priority benefits of U.S. provisionalapplication Ser. No. 62/380,960, filed on Aug. 29, 2016, and Taiwanapplication serial no. 106115535, filed on May 11, 2017. The entirety ofeach of the above-mentioned patent applications is hereby incorporatedby reference herein and made a part of this specification.

BACKGROUND OF THE INVENTION Field of the Invention

The invention relates to an electronic structure, and more particularly,to an electronic structure and an electronic structure array for thefield of chip package.

Description of Related Art

In the field of semiconductor packaging technology, a chip carrier is anelectronic device connecting an IC chip to the next level, such as amotherboard or module board. A circuit board having high wiring densityis often used as a chip carrier having a high contact number. Thecircuit board is mainly formed by the alternate stacking of a pluralityof patterned conductive layers and a plurality of dielectric layers, andtwo patterned conductive layers can be electrically connected to eachother via a conductive via. However, in the current circuit board andchip packaging process, the issue of warping and the issue ofinsufficient structural strength of the product readily occur in themanufacturing process.

SUMMARY OF THE INVENTION

The invention provides an electronic structure that can increasestructural strength and reduce production cost of the process thereof.

The invention provides an electronic structure array that can increasestructural strength and reduce production cost of the process thereof.

The invention further provides an electronic structure including aredistribution structure, a first supporting structure, a secondsupporting structure, a plurality of first bonding protruding portions,a plurality of second bonding protruding portions, a first encapsulatedmaterial, and a second encapsulated material. The first supportingstructure has a first opening and is disposed on a first surface of theredistribution structure. The second supporting structure has a secondopening and is disposed on a second surface of the redistributionstructure opposite to the first surface. The first bonding protrudingportions are disposed on the first surface of the redistributionstructure and located in the first opening. The second bondingprotruding portions are disposed on the second surface of theredistribution structure and located in the second opening. The firstencapsulated material is filled between the first opening and the firstbonding protruding portions. The second encapsulated material is filledbetween the second opening and the second bonding protruding portions.

The invention further provides an electronic structure array including aplurality of electronic structures. The electronic structure is suitablefor array arrangement to form an electronic structure array. Each of theelectronic structures includes a redistribution structure, a firstsupporting structure, a second supporting structure, a plurality offirst bonding protruding portions, a plurality of second bondingprotruding portions, a first encapsulated material, and a secondencapsulated material. The first supporting structure has a firstopening and is disposed on a first surface of the redistributionstructure. The second supporting structure has a second opening and isdisposed on a second surface of the redistribution structure opposite tothe first surface. The first bonding protruding portions are disposed onthe first surface of the redistribution structure and located in thefirst opening. The second bonding protruding portions are disposed onthe second surface of the redistribution structure and located in thesecond opening. The first encapsulated material is filled between thefirst opening and the first bonding protruding portions. The secondencapsulated material is filled between the second opening and thesecond bonding protruding portions.

Based on the above, in the electronic structure process of theinvention, since a supporting structure is disposed in the peripheralregion of each of the electronic structures of the electronic structurearray, warping occurring in the process can be alleviated, and thestructural strength of the electronic structure array can be increasedand production cost of the process thereof can be reduced, such that theyield of the electronic structure is increased. Moreover, thedisposition of the supporting structure can also improve the overallstructural strength of each of the electronic structures.

In order to make the aforementioned features and advantages of thedisclosure more comprehensible, embodiments accompanied with figures aredescribed in detail below.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings are included to provide a furtherunderstanding of the invention, and are incorporated in and constitute apart of this specification. The drawings illustrate embodiments of theinvention and, together with the description, serve to explain theprinciples of the invention.

FIG. 1A to FIG. 1D are top views of the electronic structure process ofan embodiment of the invention in order.

FIG. 1E to FIG. 1G are bottom views of a subsequent process of theelectronic structure process of FIG. 1D in order.

FIG. 1H to FIG. 1I are bottom views of a subsequent process of theelectronic structure process of FIG. 1G in order.

FIG. 2A to FIG. 2I are respectively cross-sectional views of thestructures of FIG. 1A to FIG. 1I along line A-A′ of FIG. 1A.

FIG. 3A and FIG. 3B are respectively top views of the structures of FIG.2H and FIG. 2I.

FIG. 4A is a perspective view of the structures of FIG. 1A and FIG. 2Ain complete state.

FIG. 4B is a perspective view of the structures of FIG. 1C and FIG. 2Cin complete state.

FIG. 4C is a perspective view of the structures of FIG. 1E and FIG. 2Ein complete state.

FIG. 4D is a perspective view of the structures of FIG. 1F and FIG. 2Fin complete state.

FIG. 4E is a perspective view of the structures of FIG. 1H, FIG. 2H, andFIG. 3A in complete state.

FIG. 5 is a cross-sectional view of the electronic structure of anotherembodiment of the invention.

FIG. 6 is a cross-sectional view of the electronic structure of yetanother embodiment of the invention.

FIG. 7 is a cross-sectional view of the electronic structure of stillyet another embodiment of the invention.

FIG. 8A to FIG. 8C are bottom views of a subsequent process of theelectronic structure process of FIG. 2H in order.

FIG. 9A to FIG. 9C are respectively cross-sectional views of thestructures of FIG. 8A to FIG. 8C along line A-A′ of FIG. 1A.

FIG. 10A is a top view of a subsequent process of another embodiment ofthe electronic structure process of FIG. 8B.

FIG. 10B is a cross-sectional view of the structure of FIG. 10A alongline A-A′ of FIG. 1A.

DESCRIPTION OF THE EMBODIMENTS

Referring to FIG. 1A, FIG. 2A, and FIG. 4A, the structures of FIG. 1Aand FIG. 2A in complete state are shown in FIG. 4A, i.e., the structureof FIG. 4A is partially shown in FIG. 1A and FIG. 2A. In the electronicstructure process of the present embodiment, a carrier plate 110 and aredistribution structure 120 are provided, wherein the redistributionstructure 120 has a first surface S1 and a second surface S2 opposite toeach other, and the redistribution structure 120 is disposed on thecarrier plate 110. Specifically, the second surface S2 of theredistribution structure 120 is connected to the carrier plate 110. Theredistribution structure 120 can be directly manufactured on the carrierplate 110 via a build-up process, and sufficient teaching, suggestion,and implementation of the detailed manufacturing method thereof can beobtained from the general knowledge of a relating field and aretherefore not repeated herein. For ease of explaining, FIG. 1A and FIG.4A only show a portion of the patterned circuit located on the firstsurface S1 in FIG. 2A.

Please refer to FIG. 1B and FIG. 2B. After the above steps, a pluralityof first bonding protruding portions 130 is formed on the redistributionstructure 120. Specifically, after the redistribution structure 120 ismanufactured, conductive columns are formed on a portion of thepatterned circuit of the first surface S1 of the redistributionstructure 120 via electroplating, and the material of the conductivecolumns is, for instance, copper or other types of metal. Thearrangement method of the plurality of first bonding protruding portions130 is, for instance, an array arrangement as shown in FIG. 1B, but inother embodiments, the plurality of first bonding protruding portions130 can be formed into a different pattern via electroplating based onelectrical property requirements, and the invention is not limitedthereto.

Referring to FIG. 1C, FIG. 2C, and FIG. 4B, the structures of FIG. 1Cand FIG. 2C in complete state are shown in FIG. 4B, i.e., the structureof FIG. 4B is partially shown in FIG. 1C and FIG. 2C. After the abovesteps, a first supporting structure 150A is formed on the redistributionstructure 120, wherein the first supporting structure 150A has aplurality of first openings Q1, and the plurality of first bondingprotruding portions 130 is located in the first openings Q1. In thepresent embodiment, the step further includes adhering the firstsupporting structure 150A on the redistribution structure 120 via afirst adhesive layer 140 to fix the first supporting structure 150A onthe redistribution structure 120. Specifically, the first adhesive layer140 is disposed between the redistribution structure 120 and the firstsupporting structure 150A. The first supporting structure 120 is onereticular structure, such as one reticular reinforced supporting member.As a result, the supporting structure having a plurality of openings andthe carrier plate can alleviate warping occurring in the packagingprocess, in particular a larger package, and the effect is moresignificant when the overall thickness is smaller. Moreover, the firstsupporting structure 150A having the plurality of first openings Q1 canincrease the structural strength of the electronic structure array 50(refer to FIG. 4E) and reduce the production cost of the manufacturethereof, and therefore the yield of the electronic structure 100 (referto FIGS. 1I and 2I and FIG. 3B) can be increased.

Please refer to FIG. 1D and FIG. 2D. After the above steps, a firstencapsulated material 160, such as molding compound, is formed to coverthe first supporting structure 150A and the first bonding protrudingportions 130, and the first encapsulated material 160 is filled betweenthe first openings Q1 and the first bonding protruding portions 130. Inother words, in the present step, the first encapsulated material 160 isfilled on the first supporting structure 150A and completely covers thefirst supporting structure 150A and the first bonding protrudingportions 130 such that the first encapsulated material 160 is completelyfilled in each of the first openings Q1 in the first supportingstructure 150A to fix the first supporting structure 150A and the firstbonding protruding portions 130. In other embodiments, the firstencapsulated material 160 can also be filled between the first openingsQ1 and the first bonding protruding portions 130 and not cover the firstsupporting structure 150A and the first bonding protruding portions 130,and the invention is not limited thereto.

Referring to FIG. 1E, FIG. 2E, and FIG. 4C, the structures of FIG. 1Eand FIG. 2E in complete state are shown in FIG. 4C, i.e., the structureof FIG. 4C is partially shown in FIG. 1E and FIG. 2E. After the stepsabove, the carrier plate 110 is removed. Since the first encapsulatedmaterial 160 is completely filled in each of the openings Q1, the firstsupporting structure 150A and the redistribution structure 120 arefixedly connected to each other via the first encapsulated material 160and do not separate. For ease of explaining, FIG. 1E only shows aportion of the patterned circuit located on the second surface S2 inFIG. 2E.

Referring to FIG. 1F, FIG. 2F, and FIG. 4D, the structures of FIG. 1Fand FIG. 2F in complete state are shown in FIG. 4D, i.e., the structureof FIG. 4D is partially shown in FIG. 1F and FIG. 2F. After the abovesteps, a plurality of second bonding protruding portions 132 and asecond supporting structure 152B are formed on the redistributionstructure 120, wherein the second supporting structure 152B has aplurality of second openings Q2, the second bonding protruding portions132 are located in the second openings Q2, and the redistributionstructure 120 is located between the first supporting structure 150A andthe second supporting structure 152B. Specifically, after the abovesteps, conductive columns are formed on a portion of the patternedcircuit of the second surface S2 of the redistribution structure 120 viaelectroplating. In the present embodiment, the material and arrangementmethod of the conductive columns can be the same as or different fromthe first bonding protruding portions 130 based on electric propertyrequirements, and the invention is not limited thereto. At the sametime, in the step of forming the conductive columns via electroplating,the second supporting structure 152B is also formed via electroplating.In other words, in the present embodiment, the second supportingstructure 152B and the plurality of second bonding protruding portions132 can be formed on the redistribution structure 120 at the same timevia electroplating, that is, the second supporting structure 152B andthe second bonding protruding portions 132 are integrally formed. As aresult, the material for forming the second supporting structure 152Bcan be reduced. The second supporting structure 152B is one reticularstructure similar to the first supporting structure 150A, such as onereticular reinforced supporting member. As a result, warping occurringin the packaging process can be alleviated, in particular at locationsof the redistribution structure 120 having a smaller thickness (refer toFIG. 2E). Moreover, the second supporting structure 152B having theplurality of second openings Q2 can increase the structural strength ofthe electronic structure array 50 (refer to FIG. 4E) and reduce theproduction cost of the manufacture thereof, and therefore the yield ofthe electronic structure 100 (refer to FIGS. 1I and 2I and FIG. 3B) canbe increased.

Please refer to FIG. 1G and FIG. 2G. After the above steps, a secondencapsulated material 162, such as molding compound, is formed to coverthe second supporting structure 152B and the second bonding protrudingportions 132, and the second encapsulated material 162 is filled betweenthe second openings Q2 and the second bonding protruding portions 132.In other words, in the present step, the second encapsulated material162 is filled on the second supporting structure 152B and completelycovers the second supporting structure 152B and the second bondingprotruding portions 132 such that the second encapsulated material 162is completely filled in each of the second openings Q2 in the secondsupporting structure 152B to fix the second supporting structure 152Band the second bonding protruding portions 132. In other embodiments,the second encapsulated material 162 can also be filled between thesecond openings Q2 and the second bonding protruding portions 132 andnot cover the second supporting structure 152B and the second bondingprotruding portions 132, and the invention is not limited thereto.

Referring to FIG. 1H, FIG. 2H, FIG. 3A, and FIG. 4E, the structures ofFIG. 1H, FIG. 2H, and FIG. 3A in complete state are shown in FIG. 4E,i.e., the structure of FIG. 4E is partially shown in FIG. 1H, FIG. 2H,and FIG. 3A. After the above steps, a portion of the first encapsulatedmaterial 160 and a portion of the second encapsulated material 162 canfurther be removed such that the first supporting structure 150A and thefirst bonding protruding portions 130 are exposed on the firstencapsulated material 160, and the second supporting structure 152B andthe second bonding protruding portions 132 are exposed on the secondencapsulated material 162 such that the first bonding protrudingportions 130 and the second bonding protruding portions 132 are used forthe subsequent bonding of other devices or apparatuses. Specifically, inthe present embodiment, a portion of the first encapsulated material 160protruding beyond the first bonding protruding portions 130 and aportion of the second encapsulated material 162 protruding beyond thesecond bonding protruding portions 132 can be removed via a processmethod such as etching, sandblasting, or polishing, such that the firstbonding protruding portions 130 and the second bonding protrudingportions 132 can respectively expose the first encapsulated material 160and the second encapsulated material 162. Moreover, in the presentembodiment, the area of the second bonding protruding portions 132exposed on the second encapsulated material 162 is less than the area ofthe first bonding protruding portions 130 exposed on the firstencapsulated material 160 to achieve the object of a fan-out signal to acircuit to be subsequently bonded with a target. Moreover, the exposedportions of the first bonding protruding portions 130 and the secondbonding protruding portions 132 protruding beyond the first encapsulatedmaterial 160 and the second encapsulated material 162 can be decidedbased on the change in the target to be bonded, and the invention is notlimited thereto. At this point, the electronic structure array 50 iscomplete, and the electronic structure array 50 contains a plurality ofuncut electronic structures 100 as shown in FIG. 4E.

Please refer to FIG. 1I, FIGS. 2I, and 3B. After the above steps, thefirst supporting structure 150A, the second supporting structure 152B,and the redistribution structure 120 are cut along a plurality ofcutting lines L between the first openings Q1 (refer to FIG. 1H, FIG.2H, FIG. 3A, and FIG. 4E) to form a plurality of electronic structures100. In other words, each of the electronic structures 100 formed bycutting the first supporting structure 150A and the second supportingstructure 152B along the cutting lines L has a portion of the firstsupporting structure 150A and a portion of the second supportingstructure 152B, and the portion of the first supporting structure 150Aand the portion of the second supporting structure 152B are two annularreinforced supporting members for a single electronic structure 100, andcan increase the overall structural strength of the electronic structure100, in particular at locations having a smaller overall structuralthickness. More specifically, since the two annular reinforcedsupporting members are formed by cutting along the cutting lines L, thetwo reinforced supporting members are both exposed at a side 102 of asingle electronic structure 100, and therefore better protection isprovided to the peripheral region of the electronic structure 100.Similarly, the redistribution structure 120 is also cut along thecutting lines L such that a portion of the redistribution structure 120is exposed at the side 102 of a single electronic structure 100.

Referring further to FIG. 1H, FIG. 2H, FIG. 3A, and FIG. 4E,specifically, in the present embodiment, the electronic structure array50 includes a plurality of electronic structures 100, and the electronicstructures 100 are suitable for array arrangement to form the electronicstructure array 50 as shown in FIG. 4E. Each of the electronicstructures 100 includes a redistribution structure 120, a firstsupporting structure 150A, a second supporting structure 152B, aplurality of first bonding protruding portions 130, a plurality ofsecond bonding protruding portions 132, a first encapsulated material160, and a second encapsulated material 162. The first supportingstructure 150A has a first opening Q1 and is disposed on a first surfaceS1 of the redistribution structure 120. The second supporting structure152B has a second opening Q2 disposed on a second surface S2 of theredistribution structure 120 opposite to the first surface S1. Theplurality of first bonding protruding portions 130 is disposed on thefirst surface S1 of the redistribution structure 120 and located in thefirst opening Q1. The plurality of second bonding protruding portions132 is disposed on the second surface S2 of the redistribution structure120 and located in the second opening Q2. The first encapsulatedmaterial 160 is filled between the first opening Q1 and the firstbonding protruding portions 130. The second encapsulated material 162 isfilled between the second opening Q2 and the second bonding protrudingportions 132. In other words, the electronic structures 100 are formedby cutting the electronic structure array 50, and therefore theredistribution structure 120, the first supporting structure 150A, andthe second supporting structure 152B are also formed in each of theelectronic structures 100 by cutting. Since the first supportingstructure 150A and the second supporting structure 152B are disposed inthe peripheral region of each of the electronic structures 100 of theelectronic structure array 50, warping occurring in the packagingprocess of the electronic structure array 50 can be alleviated, and thestructural strength of the electronic structure array 50 can beincreased and production cost of the manufacture thereof can be reduced,such that the yield of the electronic structure 100 is increased.Moreover, the disposition of the first supporting structure 150A and thesecond supporting structure 152B can also improve the overall structuralstrength of each of the electronic structures 100.

Referring further to FIG. 1I, FIG. 2I, and FIG. 3B, specifically, in thepresent embodiment, the electronic structures 100 include aredistribution structure 120, a first supporting structure 150A, asecond supporting structure 152B, a plurality of first bondingprotruding portions 130, a plurality of second bonding protrudingportions 132, a first encapsulated material 160, and a secondencapsulated material 162. The first supporting structure 150A has afirst opening Q1 and is disposed on a first surface S1 of theredistribution structure 120. The second supporting structure 152B has asecond opening Q2 and is disposed on a second surface S2 of theredistribution structure 120 opposite to the first surface S1. Theplurality of first bonding protruding portions 130 is disposed on thefirst surface S1 of the redistribution structure 120 and located in thefirst opening Q1. The plurality of second bonding protruding portions132 is disposed on the second surface S2 of the redistribution structure120 and located in the second opening Q2. The first encapsulatedmaterial 160 is filled between the first opening Q1 and the firstbonding protruding portions 130. The second encapsulated material 162 isfilled between the second opening Q2 and the second bonding protrudingportions 132. In particular, the electronic structures 100 are formed bycutting the electronic structure array 50 (refer to FIG. 4E), andtherefore the redistribution structure 120, the first supportingstructure 150A, and the second supporting structure 152B are also formedin each of the electronic structures 100 by cutting. Since the firstsupporting structure 150A and the second supporting structure 152B aredisposed in the peripheral region of the electronic structures 100, theoverall structural strength of the electronic structures 100 can beimproved, in particular at locations having a smaller overall structuralthickness.

Referring to FIG. 5, electronic structures 100A of the presentembodiment are similar to the electronic structures 100 of FIG. 2I, andthe main difference between the two is that, in the step of forming theplurality of first bonding protruding portions 130 on the redistributionstructure 120 (refer to FIG. 2B), the first supporting structure 150Band the first bonding protruding portions 130 are fainted on theredistribution structure 120 via electroplating at the same time, thatis, the first supporting structure 150B and the first bonding protrudingportions 130 are integrally formed. As a result, the material forforming the first supporting structure 150B can be reduced.

Referring to FIG. 6, electronic structures 100B of the presentembodiment are similar to the electronic structures 100A of FIG. 5, andthe main difference between the two is that, in the step of forming theplurality of second bonding protruding portions 132 on theredistribution structure 120, the second supporting structure 152A isadhered on the redistribution structure 120 via a second adhesive layer142 such that the second supporting structure 152A is fixed on theredistribution structure 120. Specifically, the second adhesive layer142 is disposed between the redistribution structure 120 and the secondsupporting structure 152A. As a result, the supporting structure havinga plurality of openings can alleviate warping occurring in the packagingprocess, in particular at locations having a smaller overall structuralthickness.

Referring to FIG. 7, electronic structures 100C of the presentembodiment are similar to the electronic structures 100 of FIG. 2I, andthe main difference between the two is that, in the step of forming theplurality of second bonding protruding portions 132 on theredistribution structure 120 (refer to FIG. 2F), the second supportingstructure 152A is adhered on the redistribution structure 120 via thesecond adhesive layer 142 such that the second supporting structure 152Ais fixed on the redistribution structure 120. Specifically, the secondadhesive layer 142 is disposed between the redistribution structure 120and the second supporting structure 152A. As a result, the supportingstructure having a plurality of openings can alleviate warping occurringin the packaging process, in particular at locations having a smalleroverall structural thickness.

Please refer to FIG. 8A and FIG. 9A. After the step of removing aportion of the first encapsulated material 160 and a portion of thesecond encapsulated material 162, a third supporting structure 154A isformed on the second supporting structure 152A, wherein the secondsupporting structure 152A is located between the first supportingstructure 150B and the third supporting structure 154A, and the thirdsupporting structure 154A has a plurality of third openings Q3. In thestep of forming the third supporting structure 154A on the secondsupporting structure 152A, the third supporting structure 154A isadhered on the second supporting structure 152A via a third adhesivelayer 144, wherein the third supporting structure 154A is a reticularstructure such as one reticular reinforced supporting member. As aresult, warping occurring to the target subsequently to be bonded on thesecond bonding protruding portions 132 in the packaging process thereofcan be alleviated and the overall structural strength can be improved,in particular at locations having a smaller overall structuralthickness.

Please refer to FIG. 8B and FIG. 9B. After the above steps, a chip 170is disposed in each of the third openings Q3, and the chips 170 areconnected to the plurality of second bonding protruding portions 132 inthe corresponding second opening Q2. In other words, one chip 170 isdisposed on the plurality of second bonding protruding portions 132 ineach of the second openings Q2, but in other embodiments, two or morechips can also be disposed, and the invention is not limited thereto.Specifically, the chips 170 are disposed and directly connected to thesecond bonding protruding portions 132, and via the disposition of theredistribution structure 120, the signal on the chips 170 can befanned-out to outside the projection region of the chips 170 of theredistribution structure 120 to improve the flexibility of signaldisposition of the chips 170. Moreover, the second bonding protrudingportions 132 can be directly electrically connected to a pad 170 a onthe chips 170 without the addition of bumps. Moreover, a plurality ofsolder balls (not shown) can be further disposed on the first bondingprotruding portions 130, and the redistribution structure 120 is locatedbetween the chips 170 and the solder balls.

Please refer to FIG. 8C and FIG. 9C. After the above steps, a thirdencapsulated material 164A is formed on the second encapsulated material162, and the third encapsulated material 164A is filled between thesecond encapsulated material 162 and the corresponding chip 170 tocomplete a chip package array 50A. In other words, in the present step,the third encapsulated material 164A is filled on the secondencapsulated material 162 and completely covers the third supportingstructure 154A and the chips 170 such that the third encapsulatedmaterial 164A is completely filled in each of the third openings Q3 inthe third supporting structure 154A to fix the third supportingstructure 154A and the chips 170.

Please refer to FIG. 10A and FIG. 10B. The electronic structure processsteps of the present embodiment are similar to the electronic structureprocess steps of FIG. 8C and FIG. 9C, and the main difference betweenthe two is the disposition of the third encapsulated material 164B.Specifically, in the above steps, the third encapsulated material 164Bcan only be filled between the second encapsulated material 162 and thecorresponding chip 170, or a portion of the third encapsulated material164A is removed (refer to FIG. 8C and FIG. 9C) to form the thirdencapsulated material 164B to expose the chips 170 to complete a chippackage array 50B. As a result, the chips 170 can be exposed outside theelectronic structure array 50B to be in contact with a thermal conductorsuch that a single subsequently cut electronic structure can have betterheat dissipation.

Based on the above, in the electronic structure process of theinvention, since a supporting structure is disposed in the peripheralregion of each of the electronic structures of the electronic structurearray, warping occurring in the process can be alleviated, in particularat locations having a smaller overall structural thickness, and thestructural strength of the electronic structure array can be increasedand production cost of the process thereof can be reduced, such that theyield of the electronic structure is increased. Moreover, thedisposition of the supporting structure can also improve the overallstructural strength of each of the electronic structures.

Although the invention has been described with reference to the aboveembodiments, it will be apparent to one of ordinary skill in the artthat modifications to the described embodiments may be made withoutdeparting from the spirit of the invention. Accordingly, the scope ofthe invention is defined by the attached claims not by the abovedetailed descriptions.

What is claimed is:
 1. An electronic structure, comprising: aredistribution structure; a first supporting structure having a firstopening and disposed on a first surface of the redistribution structure;a second supporting structure having a second opening and disposed on asecond surface of the redistribution structure opposite to the firstsurface; a plurality of first bonding protruding portions disposed onthe first surface of the redistribution structure and located in thefirst opening; a plurality of second bonding protruding portionsdisposed on the second surface of the redistribution structure andlocated in the second opening; a first encapsulated material filledbetween the first opening and the first bonding protruding portions; anda second encapsulated material filled between the second opening and thesecond bonding protruding portions.
 2. The electronic structure of claim1, wherein the first supporting structure and the first bondingprotruding portions are exposed on the first encapsulated material, andthe second supporting structure and the second bonding protrudingportions are exposed on the second encapsulated material.
 3. Theelectronic structure of claim 2, wherein an area of the second bondingprotruding portions exposed on the second encapsulated material is lessthan an area of the first bonding protruding portions exposed on thefirst encapsulated material.
 4. The electronic structure of claim 1,wherein a portion of the first supporting structure and a portion of thesecond supporting structure are exposed on the redistribution structure.5. The electronic structure of claim 1, further comprising: a firstadhesive layer disposed between the redistribution structure and thefirst supporting structure.
 6. The electronic structure of claim 1,further comprising: a second adhesive layer disposed between theredistribution structure and the second supporting structure.
 7. Theelectronic structure of claim 1, further comprising: a third supportingstructure having a third opening and disposed on the second supportingstructure; at least one chip disposed in the third opening and connectedto the second bonding protruding portions; and a third encapsulatedmaterial filled between the second encapsulated material and the atleast one chip.
 8. The electronic structure of claim 7, furthercomprising: a third adhesive layer disposed between the third supportingstructure and the second supporting structure;
 9. The electronicstructure of claim 7, wherein the third encapsulated material covers thethird supporting structure and the at least one chip.
 10. An electronicstructure array, comprising: a plurality of electronic structuressuitable for an array arrangement to form the electronic structurearray, wherein each of the electronic structures comprises: aredistribution structure; a first supporting structure having a firstopening and disposed on a first surface of the redistribution structure;a second supporting structure having a second opening and disposed on asecond surface of the redistribution structure opposite to the firstsurface; a plurality of first bonding protruding portions disposed onthe first surface of the redistribution structure and located in thefirst opening; a plurality of second bonding protruding portionsdisposed on the second surface of the redistribution structure andlocated in the second opening; a first encapsulated material filledbetween the first opening and the first bonding protruding portions; anda second encapsulated material filled between the second opening and thesecond bonding protruding portions.
 11. The electronic structure arrayof claim 10, wherein the first supporting structure and the firstbonding protruding portions are exposed on the first encapsulatedmaterial, and the second supporting structure and the second bondingprotruding portions are exposed on the second encapsulated material. 12.The electronic structure array of claim 11, wherein an area of thesecond bonding protruding portions exposed on the second encapsulatedmaterial is less than an area of the first bonding protruding portionsexposed on the first encapsulated material.
 13. The electronic structurearray of claim 10, wherein a portion of the first supporting structureand a portion of the second supporting structure are exposed on theredistribution structure.
 14. The electronic structure array of claim10, wherein the first supporting structures form a single reticularstructure.
 15. The electronic structure array of claim 10, wherein thesecond supporting structures form a single reticular structure.
 16. Theelectronic structure array of claim 10, wherein each of the electronicstructures further comprises a first adhesive layer disposed between theredistribution structure and the first supporting structure.
 17. Theelectronic structure array of claim 10, wherein each of the electronicstructures further comprises a second adhesive layer disposed betweenthe redistribution structure and the second supporting structure. 18.The electronic structure array of claim 10, wherein each of theelectronic structures further comprises: a third supporting structurehaving a third opening and disposed on the second supporting structure;at least one chip disposed in the third opening and connected to thesecond bonding protruding portions; and a third encapsulated materialfilled between the second encapsulated material and the at least onechip.
 19. The electronic structure array of claim 18, wherein the thirdsupporting structures form a single reticular structure.
 20. Theelectronic structure array of claim 18, further comprising: a thirdadhesive layer disposed between the third supporting structure and thesecond supporting structure.
 21. The electronic structure array of claim18, wherein the third encapsulated material covers the third supportingstructure and the at least one chip.